Rui Luo #,Tao Wang #,Jing Lan,Zhanhao Lu,Shengmei Chen,Yuan Sun,Hua-Ji Qiu

J Virol.2024 Aug 30:e0081424.doi: 10.1128/jvi.00814-24. Online ahead of print.

Review

Abstract

Selective autophagy is a protein clearance mechanism mediated by evolutionarily conserved selective autophagy receptors (SARs), which specifically degrades misfolded, misassembled, or metabolically regulated proteins. SARs help the host to suppress viral infections by degrading viral proteins. However, viruses have evolved sophisticated mechanisms to counteract, evade, or co-opt autophagic processes, thereby facilitating viral replication. Therefore, this review aims to summarize the complex mechanisms of SARs involved in viral infections, specifically focusing on how viruses exploit strategies to regulate selective autophagy. We present an updated understanding of the various critical roles of SARs in viral pathogenesis. Furthermore, newly discovered evasion strategies employed by viruses are discussed and the ubiquitination-autophagy-innate immune regulatory axis is proposed to be a crucial pathway to control viral infections. This review highlights the remarkable flexibility and plasticity of SARs in viral infections.

Keywords: innate immunity; selective autophagy; selective autophagy receptors; ubiquitination; viral infections.